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A good all-around choice, Garolite G-10/FR4 is strong, machinable, and electrically insulating. It meets UL 94 V-0 for flame retardance.
A good all-around choice, Garolite G-10/FR4 is strong, machinable, and electrically insulating. It meets UL 94V0 for flame retardance.
These rectangular tubes are flame retardant, machinable, and electrically insulating.
Stronger than Garolite CE with better electrical-insulating properties, Garolite XX is often fabricated into low-cost electrical components.
Offering higher strength and better heat resistance than Garolite G-10/FR4, Garolite G-11 is suitable for continuous use in elevated temperatures.
Offering higher strength and better heat resistance than Garolite G-10/FR4, these Garolite G-11/FR 5 sheets are suitable for continuous use in elevated temperatures. With a black coating that reduces static electricity, these sheets are good for use in solder pallets, automated test equipment, electronic assembly workstations, and other applications where static buildup could damage your equipment.
Often used for terminal boards, electrical housings, end plates, and structural components in high temperatures, these sheets are a flame-retardant version of Garolite G-11. All are stronger and resist heat better than Garolite G-10/FR4.
A flame-retardant version of Garolite G-11, these tubes are commonly used to make bushings, standoffs, and spacers for areas with high temperatures. All are stronger and resist heat better than Garolite G-10/FR4.
These Garolite CE sheets and bars are often fabricated into parts where high strength is not required.
Garolite CE is often fabricated into parts where high strength is not required.
Graphite is added to this Garolite CE to provide a slippery surface that reduces friction and makes this material conductive.
Using nothing more than standard high-speed steel tooling, Garolite LE can be machined into intricate parts.
Easily turn these rectangular tubes into parts for transformers and switchgears using high-speed tooling.
Resisting heavy impacts and temperatures up to 500° F, these Garolite sheets are used in machinery such as turbine bearings and downpipe gaskets.
Used in turbine bearings, downpipe gaskets, and other machinery, these Garolite tubes withstand heavy impacts and temperatures as high as 500° F.
Garolite G-7 withstands temperatures up to 425° F—higher than any other grade of Garolite. While not as strong as Garolite G-9 sheets, these sheets and bars offer better arc resistance in dry environments and a higher level of electrical insulation.
Choose these Garolite G-7 rods for their high heat tolerance—they withstand temperatures up to 425° F. While not as strong as Garolite G-9, they offer better arc resistance in dry environments.
Use Garolite G-10 in place of Garolite G-10/FR4 for applications that are sensitive to halogen, such as in nuclear plants. It's strong, machinable, and electrically insulating.
Rated for temperatures down to -415° F, this Garolite G-10 CR performs better in cryogenic applications than other glass epoxies.
Rated for temperatures down to -450° F, this Garolite G-10 CR performs better in cryogenic applications than other glass epoxies.
Frequently called electrical-grade Garolite, this Garolite G-9 is strong, electrically insulating, and arc resistant in dry environments.
Machine these angles into arc barriers, switch mounts, and components for circuit breakers and electrical equipment. They resist carrying electric currents in dry or humid areas, even when exposed to sudden electric discharge.
More electrically insulating than Garolite XX, these tubes are often machined into insulating washers, bushings, transformer spacers, and parts of terminal boards.
Known for its use in the aerospace industry, where a balance of weight and strength is critical, carbon fiber is now often machined into panels for structural framing, machinery components, and robotics.
Often used in place of aluminum for structural frames, machinery components, and robotics, these tubes are lighter in weight and almost as rigid.
A layer of foam is sandwiched between two pieces of carbon fiber to make a featherweight material that's even lighter than standard carbon fiber.
Reinforce structures with these rods—they weigh less than aluminum while remaining strong and almost as rigid.
Mount these lightweight tubes to flat surfaces in place of aluminum to create structural frames, machinery components, and robotics.
Often used to make railings, edge covers, and other structural framing parts, these carbon fiber U-channels add stiffness and strength to applications without adding a lot of weight.
Fit these lightweight tubes inside each other to create adjustable tubes for structural framing, machinery components, and robotics.
Lighter than aluminum while remaining rigid, these angles are often used as brackets in structural framing, machinery, and robotics.
Layers of fibers alternating in four directions makes this carbon fiber stiff at the corners and edges, so it stands up to twisting forces.
Mount these lightweight half rounds on flat surfaces to reinforce frames and structures. Carbon fiber is often used in place of aluminum because it weighs less but is almost as rigid.
Often used for structural framing, machinery components, and robotics, these carbon fiber tubes are as stiff as steel yet a fraction of the weight.
Almost as stiff as steel and a fraction of the weight, these carbon fiber sheets are often used for structural framing, machinery components, and robotics.
Often used to build frames and structures, these lightweight sheets combine the strength and stiffness of carbon fiber with the impact resistance of Kevlar.
An alternative to wood in structural applications, FRP fiberglass is strong and lightweight.
Offering excellent arc and track resistance, this GPO3 fiberglass is often used for electrical applications in humid environments.
Use these round GPO3 fiberglass tubes for electrical applications in humid environments.
Route and insulate wire using these square fiberglass tubes, which fit better along edges and around corners than round tubes.
Unlike similar U-channels, these GPO3 fiberglass hat channels have flanges for mounting to flat surfaces. Use them to route and insulate wire in humid environments.
SG-200 fiberglass withstands temperatures up to 410° F—higher than any of our other fiberglass raw materials. It’s also stronger than FRP fiberglass and easy to machine.
Made with a flame-retardant resin, this FRP fiberglass meets ASTM E84 Class A.
This FRP fiberglass is made with a chemical-resistant resin that stands up to harsh environments.
With more than twice the heat tolerance of standard FRP fiberglass, this material withstands temperatures up to 370° F.
Hard fiber is the easiest composite to machine, making it good for creating custom parts. Also known as vulcanized fiber.
Also known as fishpaper.
With an aramid honeycomb core sandwiched between carbon fiber or fiberglass for rigidity, these panels are strong, but lightweight, and won’t conduct heat. Often used as wall panels in structural and insulating applications, they’re a lightweight alternative to solid composite and aluminum honeycomb panels.
Kevlar is a super-tough material that stands up to wear and abrasion.
Each pack includes one 2" circle of GPO3 fiberglass and Garolite XX, XXX, CE, LE, G-3, G-7, G-9, G-10, and G-11.
Made of recycled steel mill scale and reground plastic, these sheets are a sustainable, low-cost alternative to standard composites often used as counterweights, such as lead and steel.
Use these resin-free fabrics to reinforce or repair existing composites as well as create new composites. Mold custom-shaped composite parts by layering your choice of fabric with an epoxy.
Mix these additives with melted plastic, epoxies, or adhesives to make parts stronger and more wear resistant without adding much weight.
Originally designed for the automotive and aerospace industries, these PAEK and carbon fiber sheets are a substitute for metal because they’re as light as aluminum and as strong as a nickel alloy.
Add stiffness to composite sandwiches without adding a lot of weight.
These PEEK sheets can be machined to tight tolerances for use in electrical and semiconductor parts, such as test sockets.
Made of balsa, the lightest and softest of all wood.
Lighter in weight than any other wood, yet still strong, these balsa cores stiffen composite sandwiches without weighing them down.
With their extra-smooth surface, these tops won’t trap dirt and oil.
An economical alternative to wood tops, these tops resist stains, oils, and chemicals.
These tops have a grounding snap and a laminate surface that dissipates static to protect electronic components from electrostatic discharge.
A plastic-laminate finish protects these shelves from stains and scratches.
Unlike most slatwall, this composite-wood slatwall has aluminum channels for increased durability.
When mixed into coatings, resins, polymers, and metals, these fillers enhance strength, conductivity, lubricity, and other physical properties.
Drill and mill precisely shaped heat sinks and other electronic components that require thermal stability.
Turn and drill intricate components such as heat sinks, fixture parts, and other electronics parts where thermal stability is important.
One of the few known materials that both draw heat away from hot spots and block electrical currents, aluminum nitride ceramic sheets are great for heat sinks and other electronic components.
This graphite is denser and slightly stronger than standard conductive graphite because it has a smaller grain.
An aluminum honeycomb core sandwiched between carbon fiber keeps these sheets strong yet lightweight.